Patent application title: Device of Memory Modules
Inventors:
IPC8 Class: AG06F306FI
USPC Class:
1 1
Class name:
Publication date: 2020-12-24
Patent application number: 20200401342
Abstract:
A memory device is provided. The device comprises a substrate, a
controller, at least a tap, a plurality of memory modules, and at least
two resistors. The controller connects to the substrate. The tap, the
memory modules, and the resistors are set on the substrate. The tap
comprises an input terminal connecting to the controller; a first output
terminal; and a second output terminal. After connecting to each other in
series, the memory modules connect to the first output terminal and the
second output terminal. Each of the resistors connects to one of the
memory modules which connect to the first output terminal and the second
output terminal. Thus, command signals, address signals, and timing
signals are separately sent to the memory modules through the first
output terminal and the second output terminal of the tap simultaneously
to process instruction or read information by the controller.Claims:
1. A device of memory modules, comprising at least a substrate; a
controller, wherein said controller connects to said substrate to read
and control command signals, address signals, and timing signals; at
least a tap, wherein said tap is disposed on said substrate and connects
to said controller; said tap comprises an input terminal connecting to
the controller; a first output terminal; and a second output terminal;
and said tap receives said command signals, address signals, and timing
signals of said controller from said input terminal and separately sends
out said command signals, address signals, and timing signals through
said first output terminal and said second output terminal
simultaneously; a plurality of memory modules, wherein said memory
modules are separately disposed on said substrate; after a number of a
part of said memory modules are separately connected in series with
address wires and control wires, one in said part of said memory modules
connects to said first output terminal; after a number of the other part
of said memory modules are separately connected in series with address
wires and control wires, another one in the other part of said memory
modules connects to said second output terminal; and said memory modules
store required instruction and information and separately send said
command signals, address signals, and timing signals to said memory
modules through said first output terminal and said second output
terminal of said tap simultaneously to process instruction and read
information by said controller; and at least two resistors, wherein said
resistors are separately disposed on said substrate; one of said
resistors connects to said one of said memory modules which connects to
said first output terminal; another one of said resistors connects to
said another one of said memory modules which connects to said second
output terminal; and said resistors separately absorb reflected signals
of said memory modules.
2. The device according to claim 1, wherein said controller is a central processing unit.
3. The device according to claim 2, wherein ones of said memory modules which connect to said first output terminal are disposed at a side of said substrate and the number of said ones of said memory modules is at least 4; and another ones of said memory modules which connect to said second output terminal are disposed at another side of said substrate and the number of said another ones of said memory modules is at least 4.
4. The device according to claim 1, wherein a path with which said controller processes instruction and reads information from said memory modules through said first output terminal and said second output terminal of said tap has a width of 80 millimeters.
5. The device according to claim 1, wherein each of said resistors connects to a terminal voltage.
6. The device according to claim 1, wherein at least 4 of said memory modules are grouped into a set and a plurality of said sets are disposed on said substrate in a top-down arrangement.
7. The device according to claim 1, wherein a plurality of said substrates are separately disposed with at least 4 memory modules; said memory modules on each one of said substrates have a square-matrix arrangement and connect to each other with .OMEGA.-shaped wires; and said substrates are stacked.
Description:
TECHNICAL FIELD OF THE INVENTION
[0001] The present invention relates to a memory device; more particularly, to shortening the read path of a controller with fast read and enhanced performance of use.
DESCRIPTION OF THE RELATED ART
[0002] A general memory device (e.g.: DDR4) comprises a controller; a plurality of memory modules connecting to the controller; and a resistor connecting to one of the memory modules.
[0003] Take a controller reading the memory modules on use as an example, where the memory device has a width of 133.35 mm with 8 memory modules. The controller will sequentially read from the first memory module to the eighth memory module, so that the read path of the controller needs to be 260 mm. Thus, the read path of the controller is long; the read speed is slow; and the performance of the memory device is affected.
[0004] Hence, the prior art does not fulfill all users' expectations on actual use.
SUMMARY OF THE INVENTION
[0005] The main purpose of the present invention is to separately send command signals, address signals, and timing signals to memory modules through a first output terminal and a second output terminal of a tap simultaneously to process instructions or read data by a controller, where the read path can be shortened for the controller to achieve fast read and enhance the performance of use.
[0006] To achieve the above purposes, the present invention is a device of memory modules, comprising at least a substrate; a controller; at least a tap; a plurality of memory modules; and at least two resistors, where the controller connects to the substrate to read and control command signals, address signals, and timing signals; the tap is set on the substrate and connects to the controller; the tap comprises an input terminal connecting to the controller; a first output terminal; and a second output terminal; the tap receives the command signals, address signals, and timing signals of the controller from the input terminal and separately sends out the command signals, address signals, and timing signals through the first output terminal and the second output terminal simultaneously; the memory modules are separately set on the substrate; after a number of a part of the memory modules are separately connected in series with address wires and control wires, one in the part of the memory modules connects to the first output terminal; after a number of the other part of the memory modules are separately connected in series with address wires and control wires, another one in the other part of the memory modules connects to the second output terminal; the memory modules store required instruction and information and separately send the command signals, address signals, and timing signals to the memory modules through the first output terminal and the second output terminal of the tap simultaneously to process instruction and read information by the controller; the resistors are separately set on the substrate; one of the resistors connects to the one of the memory modules which connects to the first output terminal; another one of the resistors connects to the another one of the memory modules which connects to the second output terminal; and the resistors separately absorb reflected signals of the memory modules. Accordingly, a novel device of memory modules is obtained.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] The present invention will be better understood from the following detailed description of the preferred embodiment according to the present invention, taken in conjunction with the accompanying drawings, in which
[0008] FIG. 1 is the view showing the first preferred embodiment according to the present invention;
[0009] FIG. 2 is the view showing the second preferred embodiment; and
[0010] FIG. 3 is the view showing the third preferred embodiment.
DESCRIPTION OF THE PREFERRED EMBODIMENT
[0011] The following description of the preferred embodiment is provided to understand the features and the structures of the present invention.
[0012] Please refer to FIG. 1, which is a view showing a first preferred embodiment according to the present invention. As shown in the figure, the present invention is a device of memory modules, comprising at least a substrate 1, a controller 2, at least a tap 3, a plurality of memory modules 4, and at least two resistors 5.
[0013] The substrate 1 is a circuit board.
[0014] The controller 2 connects to the substrate 1. The controller 2 is a central processing unit to read and control command signals, address signals, and timing signals.
[0015] The tap 3 is set on the substrate 1 and connects to the controller 2. The tap 3 comprises an input terminal 31 connecting to the controller 2; a first output terminal 32; and a second output terminal 33, which receives the command signals, address signals, and timing signals of the controller 2 from the input terminal 31 and separately sends out the command signals, address signals, and timing signals through the first output terminal 32 and the second output terminal 33 simultaneously.
[0016] The memory modules 4 are separately set on the substrate 1. After a number of a part of the memory modules 4 are separately connected in series with address wires and control wires, one in the part of the memory modules 4 connects to the first output terminal 32; after a number of the other part of the memory modules 4 are separately connected in series with address wires and control wires, another one in the other part of the memory modules 4 connects to the second output terminal 33; and the memory modules 4 store required instruction and information and separately send the command signals, address signals, and timing signals to the memory modules 4 through the first output terminal 32 and the second output terminal 33 of the tap 3 simultaneously for the controller 2 to process instruction and read data.
[0017] The resistors 5 are separately set on the substrate 1, where one of the resistors 5 connects to the one of the memory modules 4 which connects to the first output terminal 32; another one of the resistors 5 connects to the another one of the memory modules 4 which connects to the second output terminal 33; and the resistors 5 absorb reflected signals of the memory modules 4 separately.
[0018] On using the present invention, the controller 2 outputs the command signals, address signals, and timing signals to the input terminal 31 of the tap 3; and, then, separately sends the command signals, address signals, and timing signals to the memory modules 4 through the first output terminal 32 and the second output terminal 33 simultaneously for the controller 2 to process instruction or read data. Since the controller 2 processes instruction and reads information from the memory modules 4 through the first output terminal 32 and the second output terminal 33 of the tap 3 (I.e., to read through two routes simultaneously), paths for reading are shortened for the controller 2 to achieve fast read and enhance the performance of use.
[0019] In a state-of-use, ones of the memory modules 4 which connect to the first output terminal 32 are set at a side of the substrate 1, whose number is at least 4; and another ones of the memory modules 4 which connect to the second output terminal 33 are set at another side of the substrate 1, whose number is at least 4. Thus, concerning a memory device having a length of 133.35 millimeters (mm) where the command signals, address signals, and timing signals are separately sent to the memory modules 4 through the first output terminal 32 and the second output terminal 33 simultaneously as the tap 3 receives the command signals, address signals, and timing signals of the controller 2 from the input terminal 31 (I.e., to read through two routes simultaneously), the path for reading instruction and information by each of the memory modules 4 has a width of 80 mm so that the path for the controller 2 is shortened to achieve fast read and enhance the performance of use.
[0020] In a state-of-use, each of the resistors 5 connects to a terminal voltage (VTT) 6. Thus, stabilized voltage is outputted to the memory modules 4 to maintain normal operations of the memory modules 4.
[0021] Please refer to FIG. 2, which is a view showing a second preferred embodiment. As shown in the figure, at least 4 memory modules 4 are grouped into a set and a plurality of the sets are set on a substrate 1 in a top-down arrangement. Thus, different needs are met while the read path of a controller 2 is shortened with fast read and enhanced performance of use.
[0022] Please refer to FIG. 3, which is a view showing a third preferred embodiment. As shown in the figure, a plurality of substrates 1 are each separately set with at least 4 memory modules. The memory modules 4 on each of the substrates 1 have a square-matrix arrangement and connect to each other with .OMEGA.-shaped wires 41; and the substrates 1 are stacked (not shown in the figure). Thus, different needs are met while the read path of a controller 2 is shortened with fast read and enhanced performance of use.
[0023] To sum up, the present invention is a device of memory modules, where command signals, address signals, or timing signals are separately sent to memory modules through a first output terminal and a second output terminal of a tap simultaneously to process instruction or read data by a controller; and a read path is shortened for the controller to achieve fast read and enhance the performance of use.
[0024] The preferred embodiment herein disclosed is not intended to unnecessarily limit the scope of the invention. Therefore, simple modifications or variations belonging to the equivalent of the scope of the claims and the instructions disclosed herein for a patent are all within the scope of the present invention.
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